The investigation on the inhibitive effect of berberine on gene expression of FSP27 to improve visceral white adipose tissue insulin resistance in type 2 diabetic hamsters / 天津医药

ABSTRACT

Objective To study the effects of berberine (BBR) on the gene mRNA expression of fat-specific protein 27 (FSP27) and PR domain containing 16 (PRDM16) signal pathway in visceral white adipose tissues (VWAT) from type 2 dia? betic (T2DM) Chinese hamsters, and explore the related mechanisms. Methods The obese insulin-resistant (OIR) hamster model was induced by high-fat diet, and T2DM hamster model was created by OIR hamster model injected with low-dose streptozotocin. The control group was fed with standard laboratory chow. After the induction, the hamsters were randomly di?vided into control, OIR, obese T2DM and BBR-treated T2DM groups. After nine-week BBR treatment, real-time quantita?tive PCR was used to measure the gene mRNA expression changes of VWAT FSP27 and PRDM16 signal pathway and their target genes from different groups. Results Compared with control group, the gene mRNA expressions of PRDM16, CtBP-1, CtBP-2, C/EBPβ, PPARγ, PGC1α, PGC-1β and brown adipose tissue-specific genes such as UCP-1, Cidea, Elovl3, PPARα, and Acox, Cpt1 and Acadm were decreased and that of FSP27 and white adipose tissue-specific genes including Resistin, MEST and Serpina3k were increased in VWAT in OIR and obese T2DM groups. BBR treatment down-regulated FSP27 expression, enhanced PRDM16 signal pathway, and induced the gene mRNA expression of brown adipose tissue-spe?cific genes in VWAT of obese T2DM group to develop browning gene phenotype of VWAT, and then improved fat-induced insulin resistance. Conclusion The decreased FSP27 expression and increased PRDM16 expression are involved in the molecular mechanisms of browning of visceral white adipose tissues induced by BBR, and which contributes to improve ab?normal lipids metabolism and fat-induced insulin resistance in VWAT by enhancing consumption of energy as heat to re?store VWAT function.